CN211151235U - Box board and box body of box-type substation - Google Patents

Abstract

The box plate of the box-type substation comprises a plate body (10), a transverse cover plate (20), a longitudinal cover plate (30) and routing pipes (40), wherein the plate body is provided with a first side surface (111) and a second side surface (121) which are deviated from each other in the thickness direction (T), the second side surface is concavely provided with a transverse routing groove (14) and a longitudinal routing groove (15), the transverse routing groove extends along the width direction (W), the longitudinal routing groove extends along the length direction (L) and one end of the longitudinal routing groove is communicated with the transverse routing groove, the transverse cover plate is covered on the transverse routing groove along the thickness direction, the longitudinal cover plate is covered on the longitudinal routing groove along the thickness direction, a plurality of routing pipes are arranged between the first side surface and the second side surface, one end of each routing pipe is communicated with the transverse routing groove, the box plate is good in structural stability for forming a secondary cable routing channel, replacement and maintenance of cables are facilitated, and a box body of the box.

Description

Box board and box body of box-type substation

Technical Field

The utility model relates to a boxboard, especially a boxboard of box-type substation reaches box-type substation's including this boxboard box.

Background

In the field of box-type substation electrical equipment installation, there is a need for secondary power, control and communication cables to be laid along the interior of the box. The conventional solution includes that a PVC wire slot is arranged on the inner wall of the box body in an exposed mode or a cable is embedded in a steel structure gap of the box body, wherein the former easily causes the wire slot to fall off to collide equipment, and the latter has the problem of difficult cable replacement and maintenance.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a boxboard of box-type substation, its secondary cable walks change and the maintenance of line access stable in structure and the cable of being convenient for.

Another object of the utility model is to provide a box of box-type substation, its secondary cable walks the change and the maintenance of line access structure stability and the cable of being convenient for.

The utility model provides a box board of box-type substation, it includes that a plate body, a horizontal apron, a vertical apron and several walk the spool. The plate body has a first side surface and a second side surface facing away from each other in the thickness direction thereof. The second side surface is concavely provided with a transverse wiring groove and a longitudinal wiring groove. The transverse wiring groove extends along the width direction of the plate body. The longitudinal wiring groove extends along the length direction of the plate body, and one end of the longitudinal wiring groove is communicated with the transverse wiring groove. The transverse cover plate is detachably connected with the plate body and covers the transverse wiring groove along the thickness direction. The longitudinal cover plate is detachably connected with the plate body and covers the longitudinal wiring groove along the thickness direction. The plurality of routing pipes are arranged between the first side surface and the second side surface. One end of each wiring pipe is communicated with the transverse wiring groove.

The wiring pipe, the transverse wiring groove and the longitudinal wiring groove of the box plate form a secondary cable wiring channel, the structural stability is good, and the problem that the wiring groove falls off is not easy to occur. In addition, the transverse cover plate and the longitudinal cover plate which are detachable are arranged, so that the replacement and maintenance of the cable can be facilitated.

In another exemplary embodiment of the box plate of the box-type substation, the second side surface is provided with a plurality of openings corresponding to the plurality of routing pipes one to one. Each opening corresponds to the other end position of the wire running pipe in the thickness direction and is communicated with the other end of the wire running pipe. Thereby facilitating direct use.

In a further exemplary embodiment of the box plate of the box-type substation, the transverse cover plate and the longitudinal cover plate are detachably engaged with the plate body. Thereby facilitating disassembly and assembly.

In a further exemplary embodiment of the panel of the box-type substation, the panel body comprises an outer panel, an inner panel and an insulating layer. The outer plate is provided with a first side surface. The inner plate and the outer plate are arranged in parallel, and the inner plate is provided with a second side surface. The heat-insulating layer is filled between the outer plate and the inner plate. The routing pipe is embedded in the heat insulation layer. Thereby improving the heat insulating performance.

In a further exemplary embodiment of the box plate of the box-type substation, the outer plate is a single-layer corrugated plate, and the extending direction of the corrugations of the outer plate is parallel to the length direction of the plate body. Whereby the strength of the box board can be improved.

In yet another exemplary embodiment of the box board of the box-type substation, each routing pipe is laid along the length direction of the board body and at least partially arranged in the groove formed by the single-layer corrugated board. Therefore, the thickness is reduced, and the space is saved.

The utility model also provides a box of box-type substation, it includes an foretell boxboard. The box body is provided with an accommodating space, and the second side surface of the box plate faces the accommodating space. The length direction of the box plate is parallel to the height direction of the box body. The wiring pipe, the transverse wiring groove and the longitudinal wiring groove of the box plate form a secondary cable wiring channel, the structural stability is good, and the problem that the wiring groove falls off is not easy to occur. In addition, the transverse cover plate and the longitudinal cover plate which are detachable are arranged, so that the replacement and maintenance of the cable can be facilitated.

In another exemplary embodiment of the box-type substation, the box further comprises a base which forms a bottom end of the box in the height direction thereof. A bottom wiring groove is formed in the base. One end of the longitudinal wiring groove, which is far away from the transverse wiring groove, is communicated with the bottom wiring groove. Therefore, the wiring of the base can be utilized, and the space is saved.

Drawings

The following drawings are only schematic illustrations and explanations of the present invention, and do not limit the scope of the present invention.

Fig. 1 is a schematic structural view of an exemplary embodiment of a box plate of a box-type substation.

FIG. 2 is a cross-sectional view taken along line IV-IV of FIG. 1.

Fig. 3 is a schematic diagram illustrating the cable routing channels of the trunk board shown in fig. 1.

Fig. 4 is a schematic view for explaining an installation site of the box board shown in fig. 1.

Fig. 5 is a cross-sectional view of another illustrative embodiment of a box board of a box substation.

Description of the reference symbols

10 plate body

11 outer plate

111 first side

12 inner plate

121 second side

13 heat insulation layer

14 transverse wiring groove

15 longitudinal wiring groove

16 opening

20 transverse cover plate

30 longitudinal cover plate

40 routing pipe

50 base

51 bottom cabling trough

60 box top

70 accommodating space

80 cable

90 boxboard

T thickness direction

W width direction

L longitudinal direction

H height direction

Detailed Description

In order to clearly understand the technical features, objects, and effects of the present invention, embodiments of the present invention will be described with reference to the accompanying drawings, wherein the same reference numerals in the drawings denote the same or similar components.

"exemplary" means "serving as an example, instance, or illustration" herein, and any illustration, embodiment, or steps described as "exemplary" herein should not be construed as a preferred or advantageous alternative.

In this document, "first", "second", etc. do not mean their importance or order, etc., but merely mean that they are distinguished from each other so as to facilitate the description of the document.

For the sake of simplicity, only the parts relevant to the present invention are schematically shown in the drawings, and they do not represent the actual structure as a product.

Fig. 1 is a schematic structural view of an exemplary embodiment of a box board of a box-type substation, and fig. 2 is a cross-sectional view taken along line iv-iv in fig. 1, as shown in fig. 1 and 2, a box board 90 of a box-type substation includes a board body 10, a transverse cover plate 20, a longitudinal cover plate 30, and a plurality of wiring pipes 40 (two are taken as an example in the exemplary embodiment, but not limited thereto), for clarity, a thickness direction T, a width direction W, and a length direction L of the board body 10 are defined, which may be perpendicular to each other.

The panel 10 has a first side 111 and a second side 121 facing away from each other in the thickness direction T. fig. 3 shows the box panel of fig. 1 with the transverse cover 20 and the longitudinal cover 30 removed, as shown in fig. 3, the second side 121 is recessed with a transverse routing channel 14 and a longitudinal routing channel 15. the transverse routing channel 14 extends in the width direction W of the panel 10. in the present illustrative embodiment, the transverse routing channel 14 is disposed at one end of the panel 10 in the length direction L, but is not limited thereto, and in other illustrative embodiments, the transverse routing channel 14 may be disposed at a middle or other location, and the longitudinal routing channel 15 extends in the length direction L of the panel 10 and has one end communicating with the transverse routing channel 14.

A transverse cover plate 20 is detachably connected to the plate body 10 and covers the transverse cabling channel 14 in the thickness direction T. The longitudinal cover 30 is detachably attached to the plate body 10 and covers the longitudinal routing groove 15 in the thickness direction T. The transverse cover plates 20 and the longitudinal cover plates 30 mainly play a role of isolation. In the present exemplary embodiment, the lateral cover plate 20 and the longitudinal cover plate 30 are detachably engaged with the plate body 10. Without being limited thereto, in other exemplary embodiments, the transverse cover plates 20 and the longitudinal cover plates 30 may also be detachably connected to the plate body 10 by other means, for example, by bolting.

A plurality of routing tubes 40 are disposed between the first side surface 111 and the second side surface 121. one end of each routing tube 40 is connected to the transverse routing groove 14, and the other end is connected to the outside of the board body 10. in the present exemplary embodiment, each routing tube 40 is laid along the length direction L of the board body 10, but is not limited thereto, and in other exemplary embodiments, the laying direction of the routing tubes 40 can be adjusted as desired, for example, in an inclined arrangement.

In the exemplary embodiment, the second side surface 121 defines a plurality of openings 16 corresponding to the plurality of wiring pipes 40. Each opening 16 corresponds to the other end position of the wiring tube 40 in the thickness direction T and communicates with the other end of the wiring tube 40. In actual use, the length of the conduit 40 is set appropriately so that the position of the opening 16 substantially corresponds to the position of the electrical equipment to which the cable is to be connected, and is shown as a schematic position. It will be appreciated that the wiring conduit 40 and opening 16 shown in figure 3 is a pre-set manner, i.e. the wiring conduit 40 and opening 16 are arranged according to the location of the known electrical equipment; in other exemplary embodiments, the opening 16 can be opened by the user according to his or her own needs, in which case the routing tube 40 is usually set to be a full length to meet different needs, and the user cuts it off according to needs.

The box plate 90 is used to assemble the box of the substation and forms at least part of the side walls of the box. Fig. 4 is a schematic structural view of a box body of a box-type substation for explaining an installation position of the box plate shown in fig. 1 in use. As shown in fig. 4, the box body has a receiving space 70, and the second side 121 of the box plate 90 faces the receiving space 70.

The method of laying the secondary cables of the box board 90 will be described below by way of example. In the secondary cable laying, the transverse cover plate 20 and the longitudinal cover plate 30 are firstly detached, and then the cable 80 is led in from the opening 16 and passes through the wiring pipe 40 to the transverse wiring groove 14 and then passes through the transverse wiring groove 14 to the longitudinal wiring groove 15 as shown in fig. 3, thereby merging a plurality of cables 80 entering through a plurality of openings 16 to the longitudinal wiring groove 15, which facilitates uniform connection of the cables 80 to a control mechanism of electrical equipment, such as a power distribution cabinet. Finally, the transverse cover plate 20 and the longitudinal cover plate 30 are installed.

The wiring pipes 40, the transverse wiring grooves 14 and the longitudinal wiring grooves 15 of the box plate 90 form a secondary cable wiring channel, the structural stability is good, and the problem that the wiring grooves fall off is not easy to occur. In addition, the replacement and maintenance of the cables can be facilitated by providing the detachable lateral and longitudinal covers 20 and 30.

As shown in fig. 2, in the present exemplary embodiment, the plate body 10 includes an outer plate 11, an inner plate 12, and an insulating layer 13. The outer panel 11 is provided with a first side surface 111. The inner panel 12 is disposed in parallel with the outer panel 11, and the inner panel 12 is provided with a second side 121. The insulating layer 13 is made of an insulating material, and is filled between the outer panel 11 and the inner panel 12. The wiring pipe 40 is embedded in the heat insulation layer 13. Thereby improving the heat insulating performance. But not limited thereto, in other exemplary embodiments, the insulating layer 13 may be replaced by other special function material layers, such as a fireproof layer made of fireproof material.

In the present exemplary embodiment, the outer panel 11 and the inner panel 12 are both flat panels, but not limited thereto, and in other exemplary embodiments, as shown in fig. 5, the outer panel 11 may also be a single-layer corrugated panel, and the extending direction of the corrugations is parallel to the length direction L of the panel body 10, thereby improving the strength of the box board, in the exemplary embodiment shown in fig. 5, the wiring pipes 40 are at least partially disposed in the grooves formed by the single-layer corrugated panel, thereby facilitating the reduction of the thickness and the space saving.

The utility model also provides a box of box-type substation, fig. 4 shows the structural schematic diagram of an exemplary embodiment of box-type substation's box, as shown in fig. 4, the box includes a base 50, a roof 60 and several boxboards 90 shown in fig. 1. in other exemplary embodiments, the boxboard also can be the boxboard shown in fig. 5. the box has a accommodation space 70. in the direction of height H of box, base 50 and roof 60 are located the both sides of accommodation space 70. boxboard 90 forms at least part of the lateral wall of box, and its second side 121 faces accommodation space 70. the length direction L of boxboard is parallel to the direction of height H of box.

In the illustrated embodiment, a bottom routing channel 51 is formed in the base 50. The transverse wiring groove 14 is positioned at one end of the box board far away from the base 50, and one end of the longitudinal wiring groove 15 far away from the transverse wiring groove 14 is communicated with the bottom wiring groove 51. Therefore, the wiring can be conducted by utilizing the base 50, and the space is saved.

It should be understood that although the present description has been described in terms of various embodiments, not every embodiment includes only a single embodiment, and such description is for clarity purposes only, and those skilled in the art will recognize that the embodiments described herein may be combined as suitable to form other embodiments, as will be appreciated by those skilled in the art.

The above list of details is only for the practical examples of the present invention, and they are not intended to limit the scope of the present invention, and all equivalent embodiments or modifications, such as combinations, divisions or repetitions of the features, which do not depart from the technical spirit of the present invention, should be included in the scope of the present invention.

Claims (8)

1. Boxboard of box-type substation, its characterized in that includes:

the plate body (10) is provided with a first side surface (111) and a second side surface (121) which are deviated from each other in the thickness direction (T), the second side surface (121) is concavely provided with a transverse wiring groove (14) and a longitudinal wiring groove (15), the transverse wiring groove (14) extends along the width direction (W) of the plate body (10), the longitudinal wiring groove (15) extends along the length direction (L) of the plate body (10), and one end of the longitudinal wiring groove is communicated with the transverse wiring groove (14);

a transverse cover plate (20) which is detachably connected with the plate body (10) and covers the transverse wiring groove (14) along the thickness direction (T);

a longitudinal cover plate (30) detachably connected to the plate body (10) and covering the longitudinal wiring groove (15) along the thickness direction (T); and

a plurality of wiring pipes (40) arranged between the first side surface (111) and the second side surface (121); one end of each wiring pipe (40) is communicated with the transverse wiring groove (14).

2. A boxboard according to claim 1, characterised in that the second side (121) is provided with a plurality of openings (16) in one-to-one correspondence with the plurality of wiring tubes (40); each opening (16) corresponds to the other end of the wiring pipe (40) in the thickness direction (T) and communicates with the other end of the wiring pipe (40).

3. A boxboard according to claim 1, characterised in that the transversal flaps (20) and the longitudinal flaps (30) are removably snap-fitted to the body (10).

4. A boxboard according to claim 1, characterised in that the board body (10) comprises:

an outer plate (11) on which said first side (111) is arranged;

an inner plate (12) arranged parallel to the outer plate (11), the inner plate (12) being provided with the second side (121); and

and the heat insulation layer (13) is filled between the outer plate (11) and the inner plate (12), and the wiring pipe (40) is embedded in the heat insulation layer (13).

5. A boxboard according to claim 4, characterised in that the outer sheet (11) is a single-ply corrugated sheet, the direction of corrugation running parallel to the length direction (L) of the sheet body (10).

6. A box board according to claim 5, characterised in that each of the routing tubes (40) is laid along the length (L) of the board body (10) and is at least partially disposed in a recess formed in the single-ply corrugated board.

7. Box of a box-type substation, characterized in that it comprises a panel according to any one of claims 1 to 6, said box having a housing space (70), said second side (121) of said panel facing said housing space (70), said length direction (L) of said panel being parallel to the height direction (H) of said box.

8. A cabinet as claimed in claim 7, further comprising a base (50) defining a bottom end of the cabinet in a height direction (H) thereof; a bottom wiring groove (51) is formed in the base (50); one end of the longitudinal wiring groove (15) far away from the transverse wiring groove (14) is communicated with the bottom wiring groove (51).

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